How much dry solute would you take to prepare each of the following solutions from the...

How much dry solute would you take to prepare each of the following solutions from the...

How much dry solute would you take to prepare each of the following solutions from the dry solute and the solvent? A.) 132 mL of 0.115 M NaNO3 B.) 124 g of 0.220 m NaNO3 C.) 124 g of 1.4 % NaNO3 solution by mass D.) How much solvent would you take to prepare the solution in part B? E.) How much solvent would you take to prepare the solution in part C?

How much dry solute would you take to prepare each of the following solutions from the...

How much dry solute would you take to prepare each of the following solutions from the dry solute and the solvent? A. 119 mL of 0.120 M NaNO3 B. 122 g of 0.220 m NaNO3 C. 122 g of 1.4 % NaNO3 solution by mass D. How much solvent would you take to prepare the solution in part B? E. How much solvent would you take to prepare the solution in part C?

How much dry solute would you take to prepare each of the following solutions from the...

How much dry solute would you take to prepare each of the following solutions from the dry solute and the solvent? Part A: 113 mL of 0.490 M KCl Part B: 109 g of 0.510 m KCl Part C: 109 g of 4.7 %% KCl solution by mass Part D: How much solvent would you take to prepare the solution in part B? Part E: How much solvent would you take to prepare the solution in part C?

How much dry solute would you take to prepare each of the following solutions from the...

How much dry solute would you take to prepare each of the following solutions from the dry solute and the solvent? Part B 112g of 0.425m KCl Express your answer using three significant figures.msolute=gKCL Part D How much solvent would you take to prepare the solution in part B? Express your answer using four significant figures. msolvent=gH20 Part E How much solvent would you take to prepare the solution in part C? Part C:112g of 4.2% KCl solution by mass...

how many grams of solute are needed to prepare each of the following solutions? a. 1.000...

how many grams of solute are needed to prepare each of the following solutions? a. 1.000 L of 0.205 M NaCl b. 250.0 mL of 0.100 M CuSO4 c. 500.0 mL of 0.365 M CH3OH

How many moles of solute are present in the following solutions: 1.) 145 mL of 0.32...

How many moles of solute are present in the following solutions: 1.) 145 mL of 0.32 M NaNO3 2.) 430 mL of 1.3 M HNO3

Explain how you would prepare the following solution using liquid stock hydrogen peroxide as the solute...

Explain how you would prepare the following solution using liquid stock hydrogen peroxide as the solute and saline as the solvent. 240 mL of strength for skeletal pin care

Describe how you would prepare each of the following aqueous solutions, starting with solid KBr. 0.60...

Describe how you would prepare each of the following aqueous solutions, starting with solid KBr. 0.60 L of 1.5×10−2 M KBr mKBr= VH2O = 145 g of 0.170 m KBr mKBr= VH2O = a 0.140 M solution of KBr that contains just enough KBr to precipitate 18.0 g of AgBr from a solution containing 0.480 mol of AgNO3 mKBr, VH2O =

1) Use Henry's law to determine the molar solubility of helium at a pressure of 1.9...

1) Use Henry's law to determine the molar solubility of helium at a pressure of 1.9 atm and 25 ∘C. Henry’s law constant for helium gas in water at 25 ∘C is 3.70⋅10−4M/atm. 2) A 2.800×10−2M solution of NaCl in water is at 20.0∘C. The sample was created by dissolving a sample of NaCl in water and then bringing the volume up to 1.000 L. It was determined that the volume of water needed to do this was 999.2 mL...

Prepare the following solutions by determiing the proper mass of solute (or volume in the case...

Prepare the following solutions by determiing the proper mass of solute (or volume in the case where you are working from a stock solution) that will need to be transferred to the volumetric flask. Use diemensional analysis where apporpriate to do so. Describe how you would make each solution. a. 150.0 mL of .50 M hydrochorlic acid solution from a concetrated stock solution of 12.0M hydrochloric acid. b. 250.0 mL of a 1.50 M solution of potassium permanganate. c. 2.00...